Imperial College London


Faculty of EngineeringDepartment of Bioengineering




+44 (0)20 7594 1331c.rowlands Website CV




3.15Royal School of MinesSouth Kensington Campus





Dr Rowlands' research focusses on biophotonic instrumentation: making new types of optical systems that can image faster, deeper into tissue, in more colours, over larger areas, and with higher resolution. He has a broad background in different techniques, including multiphoton, super-resolution, Raman, confocal, light-sheet and fluorescence lifetime instrumentation, and is interested in developing novel designs, as well as improving the design of existing instruments in order to make them more usable for collborators. His research also extends to algorithm development and software engineering; much of this work is open-source, and can be downloaded from the group website.

Dr Rowlands studied Chemistry at Imperial College London before embarking on a PhD in the physics and chemistry of amorphous materials in the group of Prof. Stephen Elliott at the University of Cambridge. After a year spent developing a combined Raman and fluorescence microscope for intra-operative tumour diagnosis as a postdoc in the lab of Prof. Ioan Notingher at the University of Nottingham, Dr Rowlands was awarded an MIT Postdoctoral Research Fellowship to study the use of temporal focusing microscopy in photodynamic therapy at MIT, in the lab of Prof. Peter So. After five years, he returned to the UK and spent a year in Prof. Clemens Kaminski's lab at the University of Cambridge, before joining the Department of Bioengineering in September 2017.



Sesen M, Rowlands C, 2021, Thermally-actuated microfluidic membrane valve for point-of-care applications, Microsystems and Nanoengineering, Vol:7, ISSN:2055-7434, Pages:1-12

Boualam A, Rowlands C, 2021, A method for assessing the spatiotemporal resolution of structured illumination microscopy (SIM), Biomedical Optics Express, Vol:12, ISSN:2156-7085, Pages:790-801

Bezer JH, Koruk H, Rowlands CJ, et al., 2020, Elastic deformation of soft tissue-mimicking materials using a single microbubble and acoustic radiation force, Ultrasound in Medicine and Biology, Vol:46, ISSN:0301-5629, Pages:3327-3338

Chazot CAC, Nagelberg S, Rowlands CJ, et al., 2020, Luminescent surfaces with tailored angular emission for compact dark-field imaging devices, Nature Photonics, Vol:14, ISSN:1749-4885, Pages:310-315


Whiteley I, Song C, Knöpfel T, et al., 2020, Optical readout of voltage indicators using an improved targeted direct patterning concept.

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